欧洲淡水双足目小孢子虫的广泛感染、多样化和旧宿主组合。

IF 6.7 1区 医学 Q1 Immunology and Microbiology
PLoS Pathogens Pub Date : 2023-08-21 eCollection Date: 2023-08-01 DOI:10.1371/journal.ppat.1011560
Karolina Bacela-Spychalska, Remi Wattier, Maria Teixeira, Richard Cordaux, Adrien Quiles, Michal Grabowski, Piotr Wroblewski, Mykola Ovcharenko, Daniel Grabner, Dieter Weber, Alexander M Weigand, Thierry Rigaud
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引用次数: 0

摘要

已知微孢子虫属Nosema主要感染具有经济重要性的昆虫,激发了人们的高度研究兴趣,而其他宿主的研究仍然不足。颗粒Nosema是正式描述的感染两栖纲甲壳类的Nosema物种之一,已知只感染两个宿主物种。我们的第一个目的是使用小亚基核糖体DNA(SSU)标记来表征Nosema spp.在来自欧洲不同地区的不同两栖动物物种中的感染。其次,我们旨在通过基于RNA聚合酶II亚基B1(RPB1)基因序列的系统发育重建,评估系统发育多样性、宿主特异性,并探索可能解释感染Nosema谱系的gammarid多样性的进化史。对于宿主物种巴尔卡尼Gammarus,我们还分析了雌性体内寄生虫是否过量,以测试与Nosema感染相关的性别比畸变。我们在欧洲广泛分布的9种两栖动物中的316个个体中鉴定了Nosema spp。利用最新报道的序列和其他无脊椎动物的可用数据,基于RPB1的系统发育重建确定了39个与片脚类有关的单倍群。这些单倍群聚为五个分支(A-E),不形成一个感染单系群的两栖类。密切相关的姐妹分支C和D对应于颗粒诺泽马。分支A、B和E可能代表感染两栖类的未知Nosema物种。宿主特异性似乎是可变的,有些分支仅限于单个宿主,有些分支可以在几个宿主物种中找到。我们发现gammarid宿主中Nosema寄生虫的丰富度远高于预期,这说明了使用RPB1标记物优于SSU的优势。最后,我们没有发现任何迹象表明在感染巴尔卡尼G.的Nosema分支A中存在性别比例畸变。这项研究表明,Nosema spp.在欧洲的gammarids中是丰富、广泛和多样的。因此,Nosema在水生宿主中和在陆地宿主中一样多样。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Widespread infection, diversification and old host associations of Nosema Microsporidia in European freshwater gammarids (Amphipoda).

Widespread infection, diversification and old host associations of Nosema Microsporidia in European freshwater gammarids (Amphipoda).

Widespread infection, diversification and old host associations of Nosema Microsporidia in European freshwater gammarids (Amphipoda).

Widespread infection, diversification and old host associations of Nosema Microsporidia in European freshwater gammarids (Amphipoda).

The microsporidian genus Nosema is primarily known to infect insects of economic importance stimulating high research interest, while other hosts remain understudied. Nosema granulosis is one of the formally described Nosema species infecting amphipod crustaceans, being known to infect only two host species. Our first aim was to characterize Nosema spp. infections in different amphipod species from various European localities using the small subunit ribosomal DNA (SSU) marker. Second, we aimed to assess the phylogenetic diversity, host specificity and to explore the evolutionary history that may explain the diversity of gammarid-infecting Nosema lineages by performing a phylogenetic reconstruction based on RNA polymerase II subunit B1 (RPB1) gene sequences. For the host species Gammarus balcanicus, we also analyzed whether parasites were in excess in females to test for sex ratio distortion in relation with Nosema infection. We identified Nosema spp. in 316 individuals from nine amphipod species being widespread in Europe. The RPB1-based phylogenetic reconstruction using newly reported sequences and available data from other invertebrates identified 39 haplogroups being associated with amphipods. These haplogroups clustered into five clades (A-E) that did not form a single amphipod-infecting monophyletic group. Closely related sister clades C and D correspond to Nosema granulosis. Clades A, B and E might represent unknown Nosema species infecting amphipods. Host specificity seemed to be variable with some clades being restricted to single hosts, and some that could be found in several host species. We show that Nosema parasite richness in gammarid hosts is much higher than expected, illustrating the advantage of the use of RPB1 marker over SSU. Finally, we found no hint of sex ratio distortion in Nosema clade A infecting G. balcanicus. This study shows that Nosema spp. are abundant, widespread and diverse in European gammarids. Thus, Nosema is as diverse in aquatic as in terrestrial hosts.

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来源期刊
PLoS Pathogens
PLoS Pathogens 生物-病毒学
CiteScore
11.40
自引率
3.00%
发文量
598
审稿时长
2 months
期刊介绍: Bacteria, fungi, parasites, prions and viruses cause a plethora of diseases that have important medical, agricultural, and economic consequences. Moreover, the study of microbes continues to provide novel insights into such fundamental processes as the molecular basis of cellular and organismal function.
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